Fibrillin is a molecule with a negative pole at atom B.
ALEKS: Predicting whether molecules are polar or nonpolar
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The Negative Pole in the FBR Molecule
The molecule fbr has the negative pole at the atom nitrogen. By convention, the negative pole is located towards the end of the molecule. This is why nitrogen is the negative pole in the FBR molecule.
The Atom That Holds the Negative Charge in the FBR Molecule
The atom that holds the negative charge in the FBR molecule is the nitrogen atom.
The Importance of the Negative Pole in the FBR Molecule
There are a few things that are important to note about the negative pole in the FBR molecule. First, it is important for it to be electronegative in order to attract electrons to itself. Secondly, it is important that the negative pole be small in order to reduce the overall energy of the molecule. Finally, it is also important that the negative pole be located near the carbon atom that is attached to it, in order to reduce the energy of the carbon-carbon bond.
All of these things are important for a number of reasons. Firstly, it is important that the negative pole be electronegative in order to attract electrons to itself. This is because it is the negative pole that will be donating electrons to other molecules in the environment. Secondly, it is important that the negative pole be small in order to reduce the overall energy of the molecule. This is because the smaller the energy of the molecule, the more stable it will be. Lastly, it is important that the negative pole be located near the carbon atom that is attached to it, in order to reduce the energy of the carbon-carbon bond. This is because the carbon-carbon bond is one of the most important bonds in chemistry and reducing its energy will help to improve the stability of the molecule.
How the Negative Pole is Formed in the FBR Molecule
The negative pole of the FBR molecule is formed by the oxygen atom. This is done by taking the two carbon atoms in the molecule and sharing a single electron between them. This creates a carbon-oxygen double bond and the negative pole of the molecule.
The Significance of the Negative Pole in the FBR Molecule
The negative pole in the FBR molecule is significant because it is the atom that has the most negative charge. By having the negative pole, the FBR molecule is able to attract other negatively charged particles, which makes it a good candidate for certain types of electronic devices. Additionally, the negative pole in the FBR molecule also helps to stabilize the molecule.
Conclusion
The negative pole of the molecule fbr is located at the atom with the highest oxidation state.